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Query: EC:3.1.3.8 (
phytase
)
1,997
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The study aimed to assess the effect of a commercially available microbial
phytase
added to a corn-soybean meal diet on phytate P and total P in terminal ileal digesta as well as on true ileal amino acid digestibility. Three low-P diets containing 0, 500, or 750 U/kg of microbial
phytase
were fed to 21-d-old broiler chickens. Titanium dioxide was used as an indigestible marker. Ileal contents were collected from euthanized birds and analyzed, along with the diets, for total P, phytate P, and amino acids. Endogenous P determined at the terminal ileum was 446 +/- 59 mg/kg food dry matter (mean +/- SE). Endogenous ileal amino acids ranged from 219 +/- 33 mg/kg food dry matter for tryptophan to 1,255 +/- 166 mg/kg food dry matter for glutamic acid. Supplementation with microbial
phytase
resulted in a significantly (P < or = 0.05) greater phytate P disappearance (11% greater disappearance vs. unsupplemented control) from the terminal ileum. Similarly, true ileal total P digestibility was (P < or = 0.05) higher (10 to 12%) when microbial
phytase
was added. True ileal amino acid digestibility was significantly (P < or = 0.05) greater in the presence of microbial
phytase
for all the amino acids examined with the exception of methionine, tyrosine,
histidine
, and tryptophan. The mean increase in true ileal amino acid digestibility was 3.4%. The effect of
phytase
on true ileal phytate P, total P, and amino acid digestibility was similar for the 2
phytase
inclusion levels tested. Microbial
phytase
improved phytate P and total P digestibility, as well as true ileal amino acid digestibility, for a corn-soybean diet.
...
PMID:Effect of microbial phytase on ileal digestibility of phytate phosphorus, total phosphorus, and amino acids in a low-phosphorus diet for broilers. 1476 Oct 85
In order to understand the structural basis for the high thermostability of
phytase
from Aspergillus fumigatus, its crystal structure was determined at 1.5 A resolution. The overall fold resembles the structure of other
phytase
enzymes. Aspergillus niger
phytase
shares 66% sequence identity, however, it is much less heat-resistant. A superimposition of these two structures reveals some significant differences. In particular, substitutions with polar residues appear to remove repulsive ion pair interactions and instead form hydrogen bond interactions, which stabilize the enzyme; the formation of a C-terminal helical capping, induced by arginine residue substitutions also appears to be critical for the enzyme's ability to refold to its active form after denaturation at high temperature. The heat-resilient property of A.fumigatus
phytase
could be due to the improved stability of regions that are critical for the refolding of the protein; and a heat-resistant A.niger
phytase
may be achieved by mutating certain critical residues with the equivalent residues in A.fumigatus
phytase
. Six predicted N-glycosylation sites were observed to be glycosylated from the experimental electron density. Furthermore, the enzyme's catalytic residue His59 was found to be partly phosphorylated and thus showed a reaction intermediate, providing structural insight, which may help understand the catalytic mechanism of the acid phosphatase family. The trap of this catalytic intermediate confirms the two-step catalytic mechanism of the acid
histidine
phosphatase family.
...
PMID:Crystal structure of a heat-resilient phytase from Aspergillus fumigatus, carrying a phosphorylated histidine. 1513 45
Amino acid sequence analysis of fungal
histidine
acid phosphatases displaying
phytase
activity has revealed a conserved eight-cysteine motif. These conserved amino acids are not directly associated with catalytic function; rather they appear to be essential in the formation of disulfide bridges. Their role is seen as being similar to another eight-cysteine motif recently reported in the amino acid sequence of nearly 500 plant polypeptides. An additional disulfide bridge formed by two cysteines at the N-terminus of all the filamentous ascomycete phytases was also observed. Disulfide bridges are known to increase both stability and heat tolerance in proteins. It is therefore plausible that this extra disulfide bridge contributes to the higher stability found in
phytase
from some Aspergillus species. To engineer an enhanced
phytase
for the feed industry, it is imperative that the role of disulfide bridges be taken into cognizance and possibly be increased in number to further elevate stability in this enzyme.
...
PMID:Conservation of cysteine residues in fungal histidine acid phytases. 1569 62
A
phytase
gene (phy M) was cloned from Pseudomonas syringae MOK1 by two steps of degenerate PCR and inverse PCR. This gene consists of 1,287 nucleotides and encodes a polypeptide of 428 amino acids with a deduced molecular mass of 46,652 kDa. Based on its amino acid sequence, the Phy M shares the active site RHGXRXP and HD sequence motifs, typically characterized by
histidine
acid phosphatases familly. Each phy M gene fragment encoding mature Phy M with its own signal sequence (pEPSS) and without (pEPSM) was subcloned into the E. coli BL21 (DE3) expression vector, pET22b (+). The enzyme activity in crude extracts of clone pEPSM was 2.514 Umg(-1) of protein, and about 10-fold higher than that of clone pEPSS.
...
PMID:Molecular cloning of a phytase gene (phy M) from Pseudomonas syringae MOK1. 1597 Oct 93
Using a screening procedure developed for detection of phytate hydrolysing enzymes, the gene agpE encoding glucose-1-phosphatase was cloned from an Enterobacter cloacae VKPM B2254 plasmid library. Sequence analysis revealed 78% identity on nucleotide and 79% identity on peptide level to Escherichia coli glucose-1-phosphatase characterising the respective gene product as a representative of acid
histidine
phosphatases harbouring the RH(G/N)RXRP motif. The purified recombinant protein displayed maximum specific activity of 196 U mg(-1) protein against glucose-1-phosphate but was also active against other sugar phosphates and p-nitrophenyl phosphate. High-performance ion chromatography of hydrolysis products revealed that AgpE can act as a
3-phytase
but is only able to cleave off the third phosphate group from the myo-inositol sugar ring. Based on sequence comparison and catalytic behaviour against phytate, we propose to classify bacterial acid
histidine
phosphatases/phytases in the three following subclasses: (1) AppA-related phytases, (2) PhyK-related phytases and (3) Agp-related phytases. A distinguished activity of 32 U mg(-1) of protein towards myo-inositol-hexa-phosphate, which is two times higher than that of E. coli Agp, suggests that possibly functional differences in terms of
phytase
activity between Agp- and AppA-like acid
histidine
phosphatases are fluent.
...
PMID:Glucose-1-phosphatase (AgpE) from Enterobacter cloacae displays enhanced phytase activity. 1619 76
The gene, appA, encoding
phytase
was cloned from a size-selected genomic library of Citrobacter braakii YH-15 by Southern hybridization using a degenerate probe based on the N-terminal amino acid sequence of the
phytase
. The deduced amino acid sequence of appA contained the N-terminal RHGXRXP motif and the C-terminal HD motif, which are common in
histidine
acid phosphatases. It also had significant homology (60% identity) with
phytase
from Escherichia coli, while the physical mapping analysis of appA revealed that gene organization near appA in C. braakii was similar to that in Salmonella typhimurium genome. C. braakii AppA contained five putative N-glycosylation sites. The recombinant phytases, rAppAEc and rAppASc, were produced in E. coli and Saccharomyces cerevisiae, respectively, with both being fused with C-terminal
His
-tag. After purification, rAppASc was shown to be hyperglycosylated by Endo-H treatment. It had greater thermostability than the wild type
phytase
and rAppAEc.
...
PMID:Molecular cloning of the phytase gene from Citrobacter braakii and its expression in Saccharomyces cerevisiae. 1636 72
Chemical probing of
histidine
residues using specific modifiers, iodoacetic acid (IAA) and diethylpyrocarbonate (DEP) resulted in the inactivation of
phytase
(phy A). The kinetic theory of the substrate reaction during the modification of enzyme activity was applied to a study of the kinetics of the course of inactivation of
phytase
by IAA and DEP. The results suggested that
histidine
residues are involved in the active site of the enzyme. They also indicated that inactivation of the enzyme by IAA was via a complexing type inhibition, while the inhibition by DEP reaction involved a conformational change step before inactivation. The dissociation constant of the enzyme-inhibitor complex of IAA, the constant of the conformational change of DEP and the microscopic rate constants of two inhibitors were obtained.
...
PMID:Kinetics of inactivation of phytase (phy A) during modification of histidine residue by IAA and DEP. 1684 10
Phytic acid is the most abundant inositol phosphate in cells; it constitutes 1-5% of the dry weight of cereal grains and legumes. Phytases are the primary enzymes responsible for the hydrolysis of phytic acid and thus play important roles in inositol phosphate metabolism. A novel alkaline
phytase
in lily pollen (LlALP) was recently purified in our laboratory. In this paper, we describe the cloning and characterization of LlALP cDNA from lily pollen. Two isoforms of alkaline
phytase
cDNAs, LlAlp1 and LlAlp2, which are 1467 and 1533 bp long and encode proteins of 487 and 511 amino acids, respectively, were identified. The deduced amino acid sequences contains the signature heptapeptide of
histidine
phosphatases, -RHGXRXP-, but shares < 25% identity to fungal
histidine
acid phytases. Phylogenetic analysis reveals that LlALP is most closely related to multiple inositol polyphosphate phosphatase (MINPP) from humans (25%) and rats (23%). mRNA corresponding to LlAlp1 and LlAlp2 were expressed in leaves, stem, petals and pollen grains. The expression profiles of LlAlp isoforms in anthers indicated that mRNA corresponding to both isoforms were present at all stages of flower development. The expression of LlAlp2 cDNA in Escherichia coli revealed the accumulation of the active enzyme in inclusion bodies and confirmed that the cDNA encodes an alkaline
phytase
. In summary, plant alkaline
phytase
is a member of the
histidine
phosphatase family that includes MINPP and exhibits properties distinct from bacterial and fungal phytases.
...
PMID:Lily pollen alkaline phytase is a histidine phosphatase similar to mammalian multiple inositol polyphosphate phosphatase (MINPP). 1686 Mar 50
For the first time a dual pathway for dephosphorylation of myo-inositol hexakisphosphate by a
histidine
acid
phytase
was established. The phytate-degrading enzyme of Klebsiella terrigena degrades myo-inositol hexakisphosphate by stepwise dephosphorylation, preferably via D-Ins(1,2,4,5,6)P5, D-Ins(1,2,5,6)P4, D-Ins(1,2,6)P3, D-Ins(1,2)P2 and alternatively via D-Ins(1,2,4,5,6)P5, Ins(2,4,5,6)P4, D-Ins(2,4,5)P3, D-Ins(2,4)P2 to finally Ins(2)P. It was estimated that more than 98% of phytate hydrolysis occurs via D-Ins(1,2,4,5,6)P5. Therefore, the phytate-degrading enzyme from K. terrigena has to be considered a
3-phytase
(
EC 3.1.3.8
). A second dual pathway of minor importance could be proposed that is in accordance with the results obtained by analysis of the dephosphorylation products formed by the action of the phytate-degrading enzyme of K. terrigena on myo-inositol hexakisphosphate. It proceeds preferably via D-Ins(1,2,3,5,6)P5, D-Ins(1,2,3,6)P4, Ins(1,2,3)P3, D-Ins(2,3)P2 and alternatively via D-Ins(1,2,3,5,6)P5, D-Ins(2,3,5,6)P4, D-Ins(2,3,5)P3, D-Ins(2,3)P2 to finally Ins(2)P. D-Ins(2,3,5,6)P4, D-Ins(2,3,5)P3, and D-Ins(2,4)P2 were reported for the first time as intermediates of enzymatic phytate dephosphorylation. A role of the phytate-degrading enzyme from K. terrigena in phytate breakdown could not be ruled out. Because of its cytoplasmatic localization and the suggestions for substrate recognition, D-Ins(1,3,4,5,6)P5 might be the natural substrate of this enzyme and, therefore, may play a role in microbial pathogenesis or cellular myo-inositol phosphate metabolism.
...
PMID:myo-Inositol phosphate isomers generated by the action of a phytate-degrading enzyme from Klebsiella terrigena on phytate. 1691 35
A Yersinia intermedia strain producing
phytase
was isolated from glacier soil. The
phytase
gene, appA, was isolated by degenerate PCR and TAIL-PCR. The full-length fragment contained 2354bp with a 1326-bp open reading frame encoding 441 amino acids. APPA contained the active site RHGXRXP and HD sequence motifs that are typical of
histidine
acid phosphatases. To our knowledge, this is the first report of the detection of
phytase
activity and cloning of the relevant gene from Y. intermedia. The gene was overexpressed in Pichia pastoris, and the purified recombinant APPA had a specific activity for sodium phytate of 3960U/mg, which is higher than that of the Citrobacter braakii
phytase
(previously the highest specific activity known). Recombinant APPA had high activity from pH 2 to 6 (optimum 4.5) and optimal temperature of 55 degrees C; the enzyme was resistant to pepsin and trypsin. These characteristics suggest that APPA may be highly suitable for use in the feed industry.
...
PMID:A novel phytase with preferable characteristics from Yersinia intermedia. 1703 58
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